US2015675A - Color and shade comparator - Google Patents

Color and shade comparator Download PDF

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Publication number
US2015675A
US2015675A US657916A US65791633A US2015675A US 2015675 A US2015675 A US 2015675A US 657916 A US657916 A US 657916A US 65791633 A US65791633 A US 65791633A US 2015675 A US2015675 A US 2015675A
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units
windows
specimens
color
light
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US657916A
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Hays Clifton Earl
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ADAM A SUTCLIFFE
MARCUS A SUTCLIFFE
WILLIAM W ORSWELL
Original Assignee
ADAM A SUTCLIFFE
MARCUS A SUTCLIFFE
WILLIAM W ORSWELL
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Priority to US657916A priority Critical patent/US2015675A/en
Priority to GB15523/35A priority patent/GB448963A/en
Priority to FR791967D priority patent/FR791967A/en
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01JMEASUREMENT OF INTENSITY, VELOCITY, SPECTRAL CONTENT, POLARISATION, PHASE OR PULSE CHARACTERISTICS OF INFRARED, VISIBLE OR ULTRAVIOLET LIGHT; COLORIMETRY; RADIATION PYROMETRY
    • G01J3/00Spectrometry; Spectrophotometry; Monochromators; Measuring colours
    • G01J3/46Measurement of colour; Colour measuring devices, e.g. colorimeters
    • G01J3/50Measurement of colour; Colour measuring devices, e.g. colorimeters using electric radiation detectors
    • G01J3/51Measurement of colour; Colour measuring devices, e.g. colorimeters using electric radiation detectors using colour filters
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N21/00Investigating or analysing materials by the use of optical means, i.e. using sub-millimetre waves, infrared, visible or ultraviolet light
    • G01N21/17Systems in which incident light is modified in accordance with the properties of the material investigated
    • G01N21/25Colour; Spectral properties, i.e. comparison of effect of material on the light at two or more different wavelengths or wavelength bands
    • G01N21/251Colorimeters; Construction thereof
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01JMEASUREMENT OF INTENSITY, VELOCITY, SPECTRAL CONTENT, POLARISATION, PHASE OR PULSE CHARACTERISTICS OF INFRARED, VISIBLE OR ULTRAVIOLET LIGHT; COLORIMETRY; RADIATION PYROMETRY
    • G01J3/00Spectrometry; Spectrophotometry; Monochromators; Measuring colours
    • G01J3/46Measurement of colour; Colour measuring devices, e.g. colorimeters
    • G01J2003/466Coded colour; Recognition of predetermined colour; Determining proximity to predetermined colour
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01JMEASUREMENT OF INTENSITY, VELOCITY, SPECTRAL CONTENT, POLARISATION, PHASE OR PULSE CHARACTERISTICS OF INFRARED, VISIBLE OR ULTRAVIOLET LIGHT; COLORIMETRY; RADIATION PYROMETRY
    • G01J3/00Spectrometry; Spectrophotometry; Monochromators; Measuring colours
    • G01J3/46Measurement of colour; Colour measuring devices, e.g. colorimeters
    • G01J3/463Colour matching

Definitions

  • This invention tests to light sensitive devices for determining differences in colors both in'relation to their intensities'and their position in the spectrum, differences in the intensities in shades,
  • One important object of the. inventioni is to enable the making of rapid comparisons between I color or shade specimens, the comparisons being made with aminimum. of eifort in adjustment of the device and with a high degree of accuracy.
  • a second important object of the invention is' to enablefisuch color or shade comparisons to'be made by personsunskilled in the matching of 'col-' ors and by persons deficient or abnormal in color sense.
  • a third important object of the mascot is t6" provide a device of thischaracter which may be used with great accuracy by persons unskilled in” handling mechanical and electrical apparatus.”
  • a fourth important object of the invention is to provide a device ofthi's character which has a.-
  • a fifth important object of the invention is to provide 'a device of this character having electric circuit samenes which are unarnplified' and which are free from the necessity of using batter'ies, generators andgthe'like.
  • the current used being supplied b pho o-electr means form ng with a eand other objec'ts i n view,
  • Figure 2 is a detail view partly in plan and partly in horizontal section showing the arrangement ofzcertainfparts asjused with light reflected from.
  • Figure is a detailhorizontal section showing" I the,arrangement oi certain parts for use with light transmittedithr ough specimens;
  • Figure 5 is ure 1;, v Figure6 of wiring used with this device and Figure "I is awiring diagram showing 'a modified'form of the invention thediagram wiring therefor. f I
  • the efiective sizejor the'windows may be regulated and, since corresponding openings in the, two disks are equal in area, the'efiective window areas may be increased or diminished to suit the circumstances and yet may be. of equal area with each other.
  • This feature of the invention corresponds to a well known type of camera diaphragm and it will be obvious that other types of camera diaphragms maybe used for this purpose and the invention is not to be restricted to any particular means for regulating the size of the window openings.
  • Hingedto the bottom of the window provided side is a flap or shutter I! which, when it is turned up, covers the windows and -diaphragms or disks I6 and serves to hold specimensin position against the windows.
  • a lamp socket l8 Fixed on the floor or bottom ill of the casing is a lamp socket l8 wherein isa lamp "forming a light source. tant from the two windows so that the specimens positioned against the windows will be equally il-' luminated. A battle 2!) extendsfrom the window side of the casing nearly to the lamp and a curved 1 baflie 2
  • a pair of socketsQ22 are also arranged on the bottom III to receive light sensitive units 23 whichare'here shown as being of the type known to the trade as the "Photronic variety. These units are -arranged so that the distances between each unit and the adjacent win dow equal each other and also so that the two units are equidistant from the light source.
  • the sockets are arranged to supportthe units rotatably on vertical axes and, a stem 24 extends up from each unit through a suitable opening in the casing top and is provided with a pointer provided turn button 25 above the top so that the positions of the units may be adjusted to enable them to face the respective windows or the lamp as may be desired.
  • a pair of rec-v tangular openings26 which may be closed in a light tight manner by slides 21 or other suitable closures.
  • Liquid holding cells or tanks 28 are arranged to be inserted through these; openings and are held suspended in alinement between the lamp I9 andthe respective units 23. These tanks are equidistant from the light source. The arrangement of the parts when the tanks are in use is shown in Figure 3. e
  • an electrical measuring instrument which is preferablya diiferential microammeter 29 and thus is very sensitive to current flow.
  • the zero point of the scale of this instrument is in the center of the scale and, when properly adjusted, the pointer rests over the zero point when no current flows through the instrument.
  • a potentiometer 30 (shown only in 1 Figures 6 and 7) is mounted in the casing and has its movable contact-operated by a knob 3
  • a variable resistance 32 (see' Figure 6) mounted in the casing and controlled by a knob" on top of said casing.
  • the casing also carries a light unit circuit switch .34 and alamp circuit switch 35.
  • FIG. 6 a circuit arrangement wherein the units 23 are arranged in parallel.
  • a wire 36 leads from one terminal of a unit23 to one terminal of the instrument 29 and a wire 31 connects the like terminal ofthe remaining unit 23 to the remaining terminal of the instrument 29.through the switch 34.
  • the resistance of the potentiometer 30 bridges across the wires 36 and 31, being con: nected to the wire 31 between the switch 34 and the instrument 29.
  • the opposite terminals of the units 23 are connected in multiple by wiring 38 with the movable contact of the potentiometer. From any suitable source of electric current such This socket and lamp are equidisresistance 32 being arranged in these wires to control the lamp circuit.
  • the diaphragms are adjusted so that the available samples of the materials to be compared will entirely cover the effective window openings.
  • Thetwo window openings are of course to be of equal area.
  • the shutter I1 is closedand the potentiometer is adjusted until the circuits through the respective units 23 are balanced and the pointer thus be brought to zero on the scale of the ammeter.
  • the two specimens are then placed over the windows by opening the shutter, posi- 30 tioning the specimens and closing theshutter. If the two are of exactly the same color and shade the lamp, which is of course turned on, will have its rays reflected equally from the specimens so that the reflected rays will act equally on the two units.
  • a second method of making such determinations may be effected by opening the switch 34 which cuts out one unit 23. After balancing the ammeter by the potentiometer the two samples are exposed in succession at the lit window and the relative deflections of the ammeter needle noted. Obviously, the specimen of lighter shade will cause the greater deflection of the needle.
  • a standard solution maybe placed in one tank 28 and the solution to be compared in the othertank. The tanks are then placed in position through the slots oropenings 25, the ammeter having been previouslybalanced with the units 23 turned to face the light.
  • the solution containing the least dye stuff will of course permit the passage ofthe most light and the ammeter pointer will be accordingly deflected to one sideor the other.
  • a single dye stuif, such as Violamin R, Acid Green or the like it is then merely necessary to increase as the case requires the dye stuff content of the bath being compared until the pointer oi the ammeter remains at zero. Then the two dye stufis will match.
  • the dye stuff solution contains several dye stuifs of diflerent colors, say a blue, a red and a yellow dye stuff
  • the standardspecimen and that to be compared therewith may each be analyzed and the color deficiency of the compared specimen be brought up to standard by the addition 01' a dye stuff or a plurality of dye stuiIs in which the tested bath is deficient.
  • the ammeter readings may, by the use of known standards be calibrated in tabular form so that intensity of shade differences may be quickly determined if desired. For instance, samples of water each having a known degree of turbidity may be compared with distilled water and the deflection of the needle for each sample be noted on the ammeter scale and tabulated. Suppose, for instance that a sample having a known turbidity caused by 5 parts of matter in suspension is found to cause a deflection of 4 scale graduations of the ammeter pointer, there any specimens of water tested which gives this same deflection will have the same content of matter in suspension.
  • a pair of balanced light actuated electric current producing units adapted to be energized by light from respective specimens, a difl'erential micro-ammeter, circuit connections from-like terminals of respective units to opposite sides of said ammeter, a potentiometer having its resistance bridged across said circuit connections, other circuit connections from the remaining terminals of the units to the movable contact of said potentiometer, a light tight casing enclosing said units and provided with windows and means to cover the windows and hold specimens thereagainst, therespective windows being equally spaced from respective units, a lamp within the casing spaced equally from said windows, and from said units, and other means spaced equally from said lamp and located between thelamp and respective units to support translucent specimens, said units being mounted to revolve on their axes to selectively face the windows and last mentioned means.
  • a pair of balanced light actuated electric current producing units adapted to be energized by light bridged across said circuit connections, other cir- 5 cuit connections from the remaining terminals 01' the units to the movable contact of said potentiometer, a light tight casing enclosing-said units and provided with windows, said casing having means to vary the eiTective size of said windows, 10 and means to cover the windows and hold specimens thereagainst, the respective windows being equally spaced from respective units, and a lamp within the casing spaced equally from said windows.
  • a pair of balanced light actuated electric current producing units adapted to be energized by light from respective specimens, a diflferential micro-amme- 20 ter, circuit connections from like terminals of respective units to opposite sides of said ammeter, a potentiometer having its resistance bridged across said circuit connections, other circuit connections from the remaining terminals of the 25 units to the movable contact of said potentiometer, a light tightcasing enclosing said units and provided with windows, said casing having means to vary the efiective size of said windows, and
  • a pair of light actuated current producing units adapted to be energized by light from respective specimens, means to indicate the difference in excitation of said units, a light tight casing enclosing 4 i said units and provided with windows and means to cover said windows and hold specimens thereagainst, a lamp within the casing positioned to equally illuminate specimens held against said windows, means to support translucent specimens 50 between said lamp and the respective units, and mountings for said units arranged to permit rotation of the units on their axes to selectively face the windows and the last mentioned means.
  • a pair of light actuated current producing units adapted to be energized by light from respective specimens, means to indicate the difierence in excitation of said units, a light tight casing enclosing said units and provided with windows and means to cover said windows and hold specimens there against, a lamp within the casing positioned to equally illuminate specimens held against said windows, means to-support translucent specimens between said lamp and therespective units, and mountings for said units arranged to permit rotation of the units on their axes to selectively face the window and the last mentioned means,

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  • Physics & Mathematics (AREA)
  • Spectroscopy & Molecular Physics (AREA)
  • General Physics & Mathematics (AREA)
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  • Chemical & Material Sciences (AREA)
  • Analytical Chemistry (AREA)
  • Life Sciences & Earth Sciences (AREA)
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Description

c. E. HAYS 2,015,675
COLOR AND SHADE COMPARATOR Filed Feb. 21, 1933 2 Sheets-Shee t 1 Oct. 1, 1935. c. E. HAYS COLOR AND SHADE COMPARATOR 2 Sheets-Sheet 2 Filed Feb. 21, 1933 Patented Oct. 1, 1935 5 wd namoaf c, f on Earl'Hays, Pawtuck t; R. 1;, assixnoror? one'thitd to William W- well, one-sixtli to'f Marcus A. Sutclifie, Pawtucket, R. L, and one sixth. to Adam A. Sutclifle, Lincoln, 11.]. 1
" APDHcationFebruai-y 2i, 1 33, ismfll g; 5 1 5 Claims." (01. 88-44) ,1;
This invention tests to light sensitive devices for determining differences in colors both in'relation to their intensities'and their position in the spectrum, differences in the intensities in shades,
difierencein the intensities of illuminating.devices, for color analyses andfor various other D ID . ple or standard specimen.
One important object of the. inventioni is to enable the making of rapid comparisons between I color or shade specimens, the comparisons being made with aminimum. of eifort in adjustment of the device and with a high degree of accuracy.
A second important object of the inventionis' to enablefisuch color or shade comparisons to'be made by personsunskilled in the matching of 'col-' ors and by persons deficient or abnormal in color sense. v
A third important object of the mascot is t6" provide a device of thischaracter which may be used with great accuracy by persons unskilled in" handling mechanical and electrical apparatus."
A fourth important object of the invention is to provide a device ofthi's character which has a.-
wide variety of uses among which may be men-f tioned the. comparison of dyed textilesfor the purpose. of matching tints; matching' spools of 1' thread for color or spools of thread with material I.
to be sewed by such thread; the comparison ofa fluid with a standard sample or with a clear-fluid such as a dye stuff with a standard, a drug extract or chemical with a standard or a raw or treated water with distilled water; for colorimetric chemical analyses; for spectrum analyses; of colors; for comparison of weave, densities and for many other purposes, such as shape, finish" and position of objects;
, I am aware that devices for somewhatsimilar: purposes are in existence which employ the'use' of electrical circuits wherein amplifiers; afplurality of current sources such as batteries and a number of variable resistances. Such devices re-' quire much experiencein the handling of electrif cal apparatus and great care in adjustment. Eur-1 thermore, such devices are lacking in accuracybecause of the impossibility of obtaining constant current conditions ,from a numberof difl'e'renti sources or even from one current source except under circumstances onlyv obtainable in electrical laboratories and which are thus not practicable for unskilled users.
A fifth important object of the invention is to provide 'a device of this character having electric circuit samenes which are unarnplified' and which are free from the necessity of using batter'ies, generators andgthe'like. the current used being supplied b pho o-electr means form ng with a eand other objec'ts i n view,
will behereinafter apparent; the invention con- 'si'sts'. in generallot Qce'rtain circuit arrangements;
combinations of parts and'organization' of details hereinafter fully describedin one embodiment of thelinvention, illustrated'in such embodimentfin;
the accompanying I drawings, and .j specifically claimed.
In the accompanying drawings, like characters of reference indicate like parts in. the several Figure 1 is aplan view ofone form offthein vention;f" I A...
Figure 2 is a detail view partly in plan and partly in horizontal section showing the arrangement ofzcertainfparts asjused with light reflected from.
specimens;
Figure is a detailhorizontal section showing" I the,arrangement oi certain parts for use with light transmittedithr ough specimens;
Figure 4 is aside elevati on; partly broken away,
and 'showingthe right side'of the device with the specimen door or fiap'open;' v
Figure 5 is ure 1;, v Figure6 of wiring used with this device and Figure "I is awiring diagram showing 'a modified'form of the invention thediagram wiring therefor. f I
.fl'he present drawings, which will now be described"in detail, s how, in Figures 1 to 5 inclusive,
one embodimentof the invention but it is'to be understood that'the invention is not restricted to the particular embodiment mechanicallywhich is here shownas it is capable ofjbeingconstructedin manyother ways beside the specific form illustrated. In this form of the invention there isprovlded a casingfhavingja bottom l ll, side walls H and a top. i2 whichis'hingedat one edgetothe upper edge'of aside wallas by hinges I3. One of the side walls; preferably that on the right ofthe casing; is] provided with a' pair of openings or windows I of equal size," Disks l5 aremounted for rotation on this side walland the peripheral portions of these disks extend over the windows a section 'on' the line w- -a' of Figa. wiring diagram showing one 1form l4 and are provided with graduated openings I6 which,;by rotation oi the-disks may be selectively brought intoregistry with the windows I]; By
means of the openingsin these disks the efiective sizejor the'windows may be regulated and, since corresponding openings in the, two disks are equal in area, the'efiective window areas may be increased or diminished to suit the circumstances and yet may be. of equal area with each other. v
This feature of the invention corresponds to a well known type of camera diaphragm and it will be obvious that other types of camera diaphragms maybe used for this purpose and the invention is not to be restricted to any particular means for regulating the size of the window openings. Hingedto the bottom of the window provided side is a flap or shutter I! which, when it is turned up, covers the windows and -diaphragms or disks I6 and serves to hold specimensin position against the windows. a
Fixed on the floor or bottom ill of the casing is a lamp socket l8 wherein isa lamp "forming a light source. tant from the two windows so that the specimens positioned against the windows will be equally il-' luminated. A battle 2!) extendsfrom the window side of the casing nearly to the lamp and a curved 1 baflie 2| is arranged on the side "or the lamp away from the windows. A pair of socketsQ22 arealso arranged on the bottom III to receive light sensitive units 23 whichare'here shown as being of the type known to the trade as the "Photronic variety. These units are -arranged so that the distances between each unit and the adjacent win dow equal each other and also so that the two units are equidistant from the light source. The sockets are arranged to supportthe units rotatably on vertical axes and, a stem 24 extends up from each unit through a suitable opening in the casing top and is provided with a pointer provided turn button 25 above the top so that the positions of the units may be adjusted to enable them to face the respective windows or the lamp as may be desired. In the top l2 are provided a pair of rec-v tangular openings26 which may be closed in a light tight manner by slides 21 or other suitable closures. Liquid holding cells or tanks 28 are arranged to be inserted through these; openings and are held suspended in alinement between the lamp I9 andthe respective units 23. These tanks are equidistant from the light source. The arrangement of the parts when the tanks are in use is shown in Figure 3. e
Mounted in the casing with its face substantial- 1y flush with the top I2 is an electrical measuring instrument which is preferablya diiferential microammeter 29 and thus is very sensitive to current flow. The zero point of the scale of this instrument is in the center of the scale and, when properly adjusted, the pointer rests over the zero point when no current flows through the instrument. .A potentiometer 30 (shown only in 1 Figures 6 and 7) is mounted in the casing and has its movable contact-operated by a knob 3| located on top of the casing. There is also provided a variable resistance 32 (see'Figure 6) mounted in the casing and controlled by a knob" on top of said casing. The casing also carries a light unit circuit switch .34 and alamp circuit switch 35.
Considering now the wiring diagrams in Figures 6 and '7. In Figure 6 is shown a circuit arrangement wherein the units 23 are arranged in parallel. In this arrangement a wire 36 leads from one terminal of a unit23 to one terminal of the instrument 29 and a wire 31 connects the like terminal ofthe remaining unit 23 to the remaining terminal of the instrument 29.through the switch 34. The resistance of the potentiometer 30 bridges across the wires 36 and 31, being con: nected to the wire 31 between the switch 34 and the instrument 29. The opposite terminals of the units 23 are connected in multiple by wiring 38 with the movable contact of the potentiometer. From any suitable source of electric current such This socket and lamp are equidisresistance 32 being arranged in these wires to control the lamp circuit.
The form shown in Figure 7 is practically the same as that shown in Figure 6 except that each light sensitive unit of Figure 6 is replaced by a pair of such units 23' and 23" connected in series.
Obviously all partswithin the casing will be finished in a dullmat black to avoid all light reflections which might interfere with the operatlon of the device.
Certain concrete examples of the use of the invention will now be given but it is to be understood that the examples mentioned are but a few of the many uses to which the invention may be put.
In using the device to determine whether or not certain fabrics match in color the diaphragms are adjusted so that the available samples of the materials to be compared will entirely cover the effective window openings. Thetwo window openings are of course to be of equal area. The shutter I1 is closedand the potentiometer is adjusted until the circuits through the respective units 23 are balanced and the pointer thus be brought to zero on the scale of the ammeter. The two specimens are then placed over the windows by opening the shutter, posi- 30 tioning the specimens and closing theshutter. If the two are of exactly the same color and shade the lamp, which is of course turned on, will have its rays reflected equally from the specimens so that the reflected rays will act equally on the two units. Since these units form the sole sources of power in the test circuit they will exert like effect in opposite directions on the circuit so that the effect of the units on the ammeter will be nil and the pointer will re- 40 main at zero. If, however, one specimen be of diflerent color or shade'than the other the pointer of the ammeter will move to theside con-- nected to that unit which is affected by the lighter shade. It will be obvious that this test depends neither on the intensity of illumination nor on the accuracy of the human eye in color selectivity or comparison. This is of great advantagesince the most accurate eyes tire and becomein'accurate after a comparatively short time. Also, one does not need north day light in making the tests as is necessary in matching or color determinations by eye.
A second method of making such determinations may be effected by opening the switch 34 which cuts out one unit 23. After balancing the ammeter by the potentiometer the two samples are exposed in succession at the lit window and the relative deflections of the ammeter needle noted. Obviously, the specimen of lighter shade will cause the greater deflection of the needle.
In determining color identity or lack of identity in liquids such, for example, as dye stuff solu tions, a standard solution maybe placed in one tank 28 and the solution to be compared in the othertank. The tanks are then placed in position through the slots oropenings 25, the ammeter having been previouslybalanced with the units 23 turned to face the light. The solution containing the least dye stuff will of course permit the passage ofthe most light and the ammeter pointer will be accordingly deflected to one sideor the other. If a single dye stuif, such as Violamin R, Acid Green or the like be used it is then merely necessary to increase as the case requires the dye stuff content of the bath being compared until the pointer oi the ammeter remains at zero. Then the two dye stufis will match. If, however, the dye stuff solution contains several dye stuifs of diflerent colors, say a blue, a red and a yellow dye stuff, by the use of standard color filters the standardspecimen and that to be compared therewith may each be analyzed and the color deficiency of the compared specimen be brought up to standard by the addition 01' a dye stuff or a plurality of dye stuiIs in which the tested bath is deficient.
The ammeter readings may, by the use of known standards be calibrated in tabular form so that intensity of shade differences may be quickly determined if desired. For instance, samples of water each having a known degree of turbidity may be compared with distilled water and the deflection of the needle for each sample be noted on the ammeter scale and tabulated. Suppose, for instance that a sample having a known turbidity caused by 5 parts of matter in suspension is found to cause a deflection of 4 scale graduations of the ammeter pointer, there any specimens of water tested which gives this same deflection will have the same content of matter in suspension.
Many other uses for the device will readily occur to those skilled in various arts but it is not deemed necessary here to multiply examples of the usage of the invention as it is believed that the foregoing are suflicient to enable any person to utilize the same.
I There has thus been provided a simple and etficient device of the kind described and for the purposes specified.
It-is obvious that many changes may be made in the form,-construction and wiring arrangements of the invention without in any way departing from the material principles thereof. It is not, therefore, desired to confine the inven-' tion to the exact form herein shown and described but it is desired to include all forms which come within the scope of the appended claims.
I claim:-
1. In means for comparing color and shade characteristics of a plurality of specimens, a pair of balanced light actuated electric current producing units adapted to be energized by light from respective specimens, a difl'erential micro-ammeter, circuit connections from-like terminals of respective units to opposite sides of said ammeter, a potentiometer having its resistance bridged across said circuit connections, other circuit connections from the remaining terminals of the units to the movable contact of said potentiometer, a light tight casing enclosing said units and provided with windows and means to cover the windows and hold specimens thereagainst, therespective windows being equally spaced from respective units, a lamp within the casing spaced equally from said windows, and from said units, and other means spaced equally from said lamp and located between thelamp and respective units to support translucent specimens, said units being mounted to revolve on their axes to selectively face the windows and last mentioned means.
2. In means for comparing color and shade characteristics of a plurality of specimens, a pair of balanced light actuated electric current producing units adapted to be energized by light bridged across said circuit connections, other cir- 5 cuit connections from the remaining terminals 01' the units to the movable contact of said potentiometer, a light tight casing enclosing-said units and provided with windows, said casing having means to vary the eiTective size of said windows, 10 and means to cover the windows and hold specimens thereagainst, the respective windows being equally spaced from respective units, and a lamp within the casing spaced equally from said windows. v 15 3 In means for comparing color and shade characteristics of a plurality of specimens, a pair of balanced light actuated electric current producing units adapted to be energized by light from respective specimens, a diflferential micro-amme- 20 ter, circuit connections from like terminals of respective units to opposite sides of said ammeter, a potentiometer having its resistance bridged across said circuit connections, other circuit connections from the remaining terminals of the 25 units to the movable contact of said potentiometer, a light tightcasing enclosing said units and provided with windows, said casing having means to vary the efiective size of said windows, and
means to cover the windows and hold specimens 30 4. In means for comparing color and shade 40 characteristics 01 a plurality of specimens, a pair of light actuated current producing units adapted to be energized by light from respective specimens, means to indicate the difference in excitation of said units, a light tight casing enclosing 4 i said units and provided with windows and means to cover said windows and hold specimens thereagainst, a lamp within the casing positioned to equally illuminate specimens held against said windows, means to support translucent specimens 50 between said lamp and the respective units, and mountings for said units arranged to permit rotation of the units on their axes to selectively face the windows and the last mentioned means.
i 5. In means for comparing color and shade characteristics of a plurality of specimens, a pair of light actuated current producing units adapted to be energized by light from respective specimens, means to indicate the difierence in excitation of said units, a light tight casing enclosing said units and provided with windows and means to cover said windows and hold specimens there against, a lamp within the casing positioned to equally illuminate specimens held against said windows, means to-support translucent specimens between said lamp and therespective units, and mountings for said units arranged to permit rotation of the units on their axes to selectively face the window and the last mentioned means,
c said units being spaced equally from respective windows and being also spaced equally from the respective means to support translucent speci-
US657916A 1933-02-21 1933-02-21 Color and shade comparator Expired - Lifetime US2015675A (en)

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Application Number Priority Date Filing Date Title
US657916A US2015675A (en) 1933-02-21 1933-02-21 Color and shade comparator
GB15523/35A GB448963A (en) 1933-02-21 1935-05-28 Improvements in or relating to color and shade comparators
FR791967D FR791967A (en) 1933-02-21 1935-07-02 Comparator to determine differences in colors and shades

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US657916A US2015675A (en) 1933-02-21 1933-02-21 Color and shade comparator

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Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2462823A (en) * 1945-05-31 1949-02-22 Weston Electrical Instr Corp Photoelectric cell color temperature measuring device
US2477208A (en) * 1946-05-03 1949-07-26 Rouy Auguste Louis Mar Antoine Colorimeter
US2528513A (en) * 1949-10-21 1950-11-07 Walter F Grether Self-administering color vision test
US2546450A (en) * 1949-02-23 1951-03-27 Henry A Gardner Lab Inc Photometric comparator instrument
US2574264A (en) * 1949-03-04 1951-11-06 Henry A Gardner Lab Inc Color and color difference meter
US2630735A (en) * 1949-11-08 1953-03-10 Rouy Auguste Louis Mar Antoine Colorimeter
US2633772A (en) * 1949-08-20 1953-04-07 Seagram & Sons Inc Method and apparatus for detecting foreign bodies in containers
US2740899A (en) * 1956-04-03 cummings
US2991688A (en) * 1958-05-16 1961-07-11 Milton Roy Co Optical comparator unit
US2999934A (en) * 1939-11-29 1961-09-12 Laurens A Taylor Radiation detector apparatus
US2999933A (en) * 1939-11-29 1961-09-12 Charles F Green Radiation responsive means

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2740899A (en) * 1956-04-03 cummings
US2999934A (en) * 1939-11-29 1961-09-12 Laurens A Taylor Radiation detector apparatus
US2999933A (en) * 1939-11-29 1961-09-12 Charles F Green Radiation responsive means
US2462823A (en) * 1945-05-31 1949-02-22 Weston Electrical Instr Corp Photoelectric cell color temperature measuring device
US2477208A (en) * 1946-05-03 1949-07-26 Rouy Auguste Louis Mar Antoine Colorimeter
US2546450A (en) * 1949-02-23 1951-03-27 Henry A Gardner Lab Inc Photometric comparator instrument
US2574264A (en) * 1949-03-04 1951-11-06 Henry A Gardner Lab Inc Color and color difference meter
US2633772A (en) * 1949-08-20 1953-04-07 Seagram & Sons Inc Method and apparatus for detecting foreign bodies in containers
US2528513A (en) * 1949-10-21 1950-11-07 Walter F Grether Self-administering color vision test
US2630735A (en) * 1949-11-08 1953-03-10 Rouy Auguste Louis Mar Antoine Colorimeter
US2991688A (en) * 1958-05-16 1961-07-11 Milton Roy Co Optical comparator unit

Also Published As

Publication number Publication date
FR791967A (en) 1935-12-20
GB448963A (en) 1936-06-18

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